CN1754043A

CN1754043A - Combination assembly for managing a hose or like elastic pump tube in a positive displacement pump

Info

Publication number: CN1754043A
Application number: CN200480005353.5A
Authority: CN
Inventors: M·里希梅基
Original assignee: Larox Flowsys Oy
Current assignee: Maple Promise Co ltd
Priority date: 2003-02-28
Filing date: 2004-02-27
Publication date: 2006-03-29
Anticipated expiration: 2024-02-27
Also published as: US7726956B2; WO2004076861A1; CA2516687A1; FI20030312A; DE602004022140D1; AU2004215202B2; CN100473830C; US20060110275A1; CA2516687C; EP1597481B1; ES2328037T3; AU2004215202A1; EP1597481A1; FI20030312A0; ATE437305T1; JP2006519333A; ZA200507785B; JP4559407B2

Abstract

A combination assembly is disclosed for managing a hose or like elastic pump tube or pump channel such that particularly is used in a peristaltic pump. The invention is characterized by having the pump equipped with an assembly for the adjustment of the pump pressure and/or compression imposed on the hose/tube, the assembly comprising a steplessly adjustable eccentric adjustment mechanism.

Description

Composite set in order to elastic pump tubes such as flexible pipes in the control positive-displacement pump

Technical field

The present invention relates to a kind of composite set, in particular for elastic pump tubes or the pump channels such as flexible pipe in the control positive-displacement pump according to claim 1 preamble.

Background technique

As the peristaltic pump of a classification in the positive-displacement pump be particularly useful for pumping wear-resisting, mordant pulpous state or high viscosity liquid and the difficult pumpable materials such as solid of liquid suspension are arranged.Also preferred peristaltic pump when pumping need be aided with accurate measurement, high sanitary standard and drip-preventing function as fundamental function.Peristaltic pump is widely used in food, medicine, oil plant and chemical product and makes the field.In heavy industry, peristaltic pump is used for pumping liquid and mineral/materials such as inorganic suspended matter.

In order to operate suitably, in the one-period of pump rotor, peristaltic pump is wanted a certain amount of flowing medium is moved along hoses/conduits by the above-mentioned flexible pipe of compression of wriggling through and through, makes down a certain amount of fluid be full of above-mentioned flexible pipe simultaneously.Traditionally, this pumping is to finish by rotating non-rotating shaft boots (shoe) or pressure roller in proper order, thereby the bit point that above-mentioned flexible pipe is easy between above-mentioned axle boots/pressure roller and pump head perisporium gradually reduces.And can select above-mentioned hoses/conduits to have enough elasticity and add brute force, and so that above-mentioned flexible pipe can recover round-shaped immediately after compression, but can in the chamber, produce vacuum, reduced the quantity of next dosed fluid that enters flexible pipe.

Very at large, this pump structure is by straight hoses/conduits is bent to semicircle, finish in the chamber of above-mentioned pump head so that enter, thereby above-mentioned flexible pipe is by two radially opposite axle boots or pressure roller radial compression.This pump is characterised in that above-mentioned axle boots or pressure roller are applying compressive force on above-mentioned flexible pipe, and said pump half filling usually oiling agent (for example glycerine), be used for thereby frictional heat is delivered to outside the pump casing excavationg pump, can also reduce the slip or the rolling friction that in the process of the above-mentioned flexible pipe of compression, are produced.But when rotor high-speed rotation or the operation of high drop, said pump is given birth to heat rapidly, so that need stop in predetermined distance and cool off.If pump is specifically designed to continuous running, then this pump and drive motor/transmission system can be oversize, thereby cause investment to increase and the cost rising.Owing in the Sealing of changing pump case and axle, also need to discharge and change oiling agent, when safeguarding and debug said pump, also can produce other cost.

And in this existing structure, the axle boots/pressure roller of rotor begins to compress above-mentioned flexible pipe in the suction side, thereby all can produce instantaneous power impact to soft tube fixing structure and flexible pipe itself.This impact produces twice in the single cycle of pump rotor, thus to flexible pipe especially flexible pipe attached anchor portion all can produce very large pressure.

In some pump structures, attempted utilizing pinch roller to roll and reduced high friction and quick pulsatile impact at any track in bearing upper edge.Here, flexible pipe is bent to full circle, thereby the suction side of flexible pipe and exhaust end overlap.This single contact roller can be reduced to minimum with the friction between above-mentioned pinch roller and the flexible pipe, thereby does not need basically to lubricate.And the above-mentioned single contact pump that surpasses above-mentioned flexible pipe full circle can five equilibrium pumping pulse quantity, just the revolution subcycle only produces a fluid pulse from said pump, rather than two.Because the constricted zone of rotor is bigger, above-mentioned rotor can be closed the chamber of stating flexible pipe in slower speed ShiShimonoseki, thereby compares two contact pumps, makes fluid pulse begin/finish all to slow down, so the fluid pulsation influence is reduced gradually.This structure can also reduce friction, thereby the heat that produces minimizing, thereby helps rotor continuous running under high speed, so by less pump, train of gearings and motor just can obtain required volume flowrate.

But the continuous running under high speed is very violent to bearing's influence of above-mentioned flexible pipe especially hose end.Thereby the Frequently Asked Questions of existing creeping type positive-displacement pump is exactly the attached problem that is fixed to pump case of above-mentioned hose end.Above-mentioned flexible pipe is fixed on the support lug in the pump case outside by pipe clamp/plug usually.The attached fixedly needs of hose end are carrying the line pressure that pump is produced, and opening is worn in the seal tube feedback, so that can be, simultaneously flexible pipe be fixed to that the very tight stress that is applied on the flexible pipe by rotor that must make can not draw back hose end on the pump case from the pump case internal leakage as the liquid mediums of hose lubricant in the pump.

Prior art among the patent disclosure FR11148777 discloses a kind of like this structure, and promptly by means of crank, roller is rotation arbitrarily in pump chamber.Fig. 2 of this reference shows the said pump structure.It should be noted that in pump chamber, elasticity pump fluid passage does not cover 360 ° whole circle.

At patent disclosure AU19971675, promptly in " the creeprail pump with dynamic pump line " a kind of vibrocompression ring that rotates by the driven device is disclosed in pump chamber.Pump line 360 ° of Zhou Yanshen in the pump chamber, the air-breathing/exhaust end of pump enters/leaves pump chamber in the tangent direction of pump case relatively.The accompanying drawing of reference shows the sectional view of pump line.

The crucial deficiency of existing structure is to be to lack the controlling mechanism that can set compressive force.Especially, it is very inconvenient to apply compressive force on elastic fluid passages such as pump hose, thus the distance between rotor and the pump chamber relatively steady state value change.Except above-mentioned defective, above-mentioned flexible pipe is often by very clumsy attached being fixed on the pump case of mode.In other words, its actual functional capability and the technology implementation of operational maintenance have all been ignored fully.

Often, the problems referred to above are relative to each other and cause each other.But it is apparent that concerning the efficient and housekeeping operation of peristaltic pump, make system simpler, flexible pipe attached fixing more reliable, and it is all most important that the controlling mechanism of hose compression is set.

Summary of the invention

Purpose of the present invention overcomes above-mentioned defective exactly.Purpose of the present invention realizes that by a kind of composite set elastic pump tubes or pump channels such as this device may command flexible pipe are in particular for the flexible pipe/passage in the positive-displacement pump.

The narration of installing among the present invention is disclosed by the characteristic of claim subsequently.The present invention is different from prior art, and advantage is that pump is provided with and is suitable for the device regulating pump pressure and/or be applied to the hose/tube upward pressure that said apparatus is characterised in that infinitely eccentric adjustment.In addition, the invention is characterized in that above-mentioned peristaltic pump is suitable for using separately or be used in combination with eccentric adjustment mechanism and with the attached hoses fixed system of exerting pressure on the control pump hose/tube.

The accompanying drawing summary

Below, will describe the present invention with reference to the accompanying drawings in detail, wherein:

Fig. 1 is peristaltic hose pump embodiment's a schematic representation;

Fig. 2 is for being used for the side cross-sectional, view of the eccentric adjustment mechanism of peristaltic pump among the present invention;

Fig. 3 is set in the front cross-sectional view of uppermost position for eccentric adjustment mechanism among the present invention;

The front cross-sectional view of Fig. 4 lower position for eccentric adjustment mechanism among the present invention is set in;

Fig. 5 is the sectional view of eccentric adjustment mechanism among the present invention;

Fig. 6 is for being suitable for the longitdinal cross-section diagram of the attached fixed system of peristaltic pump among the present invention;

Fig. 7 is for being suitable for the sectional view of the attached fixed system of peristaltic pump among the present invention.

Preferred embodiment describes in detail

With reference to figure 1, show the primary component of peristaltic pump.This pump comprises the pump housing 1, flexible pipe 2 and be installed in the rotor 3 that can rotate freely on the bearing, and these bearings all are installed on the eccentric adjustment lining 5.Above-mentioned eccentric adjustment lining 5 is installed on the crankpin successively, and the reference mark among Fig. 2 is 10.Above-mentioned crankshaft installed is on the bearing on the rear wall of the pump housing 1, with respect to pump chamber 34 centerings.Elastic pump tubes such as flexible pipe or pump channel are inserted in the pump chamber that accommodates rotor, thereby flexible pipe leans against in the pump chamber on week, so that cover whole circumference.The attached feedback that is fixed to the pump housing of above-mentioned hose end is worn on the opening 8.Thereby above-mentioned crank makes rotor be driven by drive unit to be rotated in pump chamber, and in pump chamber Monday give set a distance.This distance setting must be less than two folding thickness of above-mentioned hose/tube sidewall.Therefore, above-mentioned rotor compression is inserted into the flexible pipe in the pump chamber, thus along with the rotation of rotor, the liquid mediums amount that can prevent pumping in the flexible pipe in rotor the place ahead via the place of rotor compression flexible pipe from leaking in the other direction.Along with the rotation of rotor in pump chamber, rotor rolls across hose surface, thereby promotes the liquid mediums in the flexible pipe.Along with the progressively action of rotor, flexible pipe recovers circular contour immediately after by rotor compression, and above-mentioned flexible pipe produces vacuum, makes flexible pipe be full of the flowing medium of pumping once more.

In Fig. 2,3 and 4, shown eccentric adjustment mechanism comprises eccentric adjustment lining 5, worm gear 6, spur wheel 9, locking closure 4, lock pin 11 and lock bolt 12.Above-mentioned eccentric adjustment mechanism is used to regulate the gap 23 between week in rotor outer surface shown in Fig. 4 and the pump chamber, thereby determines to be applied to the compressive force on the flexible pipe.Can regulate above-mentioned rotor clearance by the eccentric bush 5 that rotation is installed on the crank pin 10.Above-mentioned rotor is installed on the bearing that is arranged on the eccentric bush periphery successively.The throw of eccentric 19 of the adjusting lining shown in Fig. 3 lining periphery boring prejudicially on lining is relatively finished.

The rotation of above-mentioned eccentric adjustment lining helps reduction gear such as worm gear to be arranged between eccentric bush and the crank.Above-mentioned reduction gear is made of worm gear 6, and promptly the live axle of reduction gear embeds the entity part of above-mentioned eccentric bush.Spur wheel 9 is that driven gear is installed on the end of crank pin.Perhaps, driven spur wheel 9 can also be machined directly on the end of crank pin.Along with the rotation of live axle, above-mentioned eccentric bush rotating crank pin, thereby the distance 23 between week also constantly changes as shown in Figure 4 in rotor periphery and the pump chamber.As shown in Figure 3, the pump internal rotor equals wall thickness 20,21 poor of lining 5 to the maximum outreach between the pump housing.

Worm gear or self-locking gear all can be advantageously used for and be reduction gear.This just can come accurately and easily carry out rotor clearance and regulate by an operator.Because the compressive force that is applied on the flexible pipe can not be rotated above-mentioned lining backward,, the self-locking speed-down gear rotates so just can preventing that above-mentioned lining is out of control.Utilization has the tooth reduction gear, and above-mentioned rotor clearance is regulated and can and be adjusted pad without any need for special tool.

In process pump, the eccentric adjustment lining is stressed continuously, thus the rotating eccentricity lining.Because locking closure 4, above-mentioned eccentric bush is locked on the crank pin, thereby reduction gear needn't be applied to all rotating forces on the above-mentioned eccentric bush in the pump operation process.As shown in Figure 2, above-mentioned locking closure is clipped in by bolt 12 on the conical surface 14 of eccentric bush, and above-mentioned bolt is fixed in the tapped hole 22 of crank end among Fig. 3 via this locking closure.Except the coupling mechanism force that the taper assembling is provided, above-mentioned tightened bolt presses is arranged on the O V-shaped ring 15 between locking closure flange and the eccentric bush, enters zone and the reduction gear between above-mentioned eccentric bush, the crankpin so that prevent hose lubricant or other pollutants.Thereby only be used to provide clamping force via the screw of locking closure, locking closure firmly is pressed against on the conical surface 13.The rotatable eccentric bush of above-mentioned power, and transmit via the conical surface between locking closure and the eccentric bush, by being locked between bent axle and the locking closure, this power is passed on the crankshaft end.Above-mentioned being locked finished by the spring bolt in the crankshaft end or in the keyway 11.Above-mentioned locking closure is respectively arranged with the groove 13 that matches with above-mentioned spring bolt or key.

By above-mentioned locking closure, be installed between the boss 16 that bearing inner race on the eccentric bush can also axially be clamped in the boss 17 of eccentric bush and crank.This need clamp bearing under stationary state inner ring closely cooperates between the boss of eccentric bush and crank, thereby prevents that bearing from producing the gap with respect to eccentric bush.

Peristaltic pump based on positive-displacement pump is characterised in that in the pumping process, the internal surface of above-mentioned hose/tube can suffer erosion.This erosion has just reduced the wall thickness of flexible pipe, also can reduce the hose compression in gap between the pump rotor and the pump housing.Therefore in the flexible pipe using process, must regulate the compressive force of flexible pipe.In continuous using process, the known thickness of flexible pipe can may wear to the numerical value an of the unknown, in this case, just is difficult to set up the compressive force that an effective method is regulated flexible pipe in the prior art.Invalid regulating method need be assisted by the practical operation experience, need often call serious superpressure and pump damage situations.As a comparison, disclosed eccentric adjuster can utilize the torque correction spanner simply to hose compression adjustment working time among the present invention.The end 18 of worm screw can be rotated by means of above-mentioned torque wrench.When this worm screw is rotated by above-mentioned torque wrench, can in the worm screw rotation process, apply a moment of torsion of accurately setting.Because the moment of torsion that applied is always constant, so be applied to that compressive force on the flexible pipe just becomes enough accurate and be a steady state value.In the adjustment process of hose compression, it is highly important that to apply the constant moment of torsion that compresses constantly, so that compensation is because of relaxing that the flexible pipe wearing and tearing produce.

In Fig. 3, show eccentric adjustment and be set to situation when having the minimal compression gap.In Fig. 4, show eccentric adjustment and be set at compression clearance 23 and have peaked position.

In Fig. 5, show another embodiment according to eccentric adjuster of the present invention.The modification of this controlling device is particularly suited for setting hose compression in the small size pump, wherein can use based on the adjusting setting of above-mentioned reduction gear and uneconomical or physics.

Eccentric adjuster among Fig. 5 is included in the locking nut 25 of crankshaft end, locking cone 27 and eccentric bush 5.In this embodiment, hose compression adjustment is based on and the identical eccentric adjustment principle shown in Fig. 2.Actual difference between these two embodiments can be found out from following technology, and the moment of torsion that is used to rotate above-mentioned cone promptly is provided, and has above-mentioned eccentric bush locking configuration in place.By the key head (keyhead) at spanner commonly used or its flange place of pliers effect, thereby rotate above-mentioned lining, eccentric bush is rotated on crankpin.Above-mentioned eccentric bush is locked to required adjusted position by above-mentioned locking cone 27.This locking cone is forced on the outside thread 26 of crankshaft end by means of locking nut 25.Utilize joint gasket, this locking nut is fixed on the above-mentioned bent axle.Above-mentioned locking cone can be outwarded winding by means of the expansion screw thread on its flange (extractor thread).For this reason, the flange of this locking cone is provided with two tapped holes 24, thereby can install and launch bolt (extractor bolt) to remove above-mentioned locking cone.Above-mentioned bolt is tightened, contacted, thereby they throw off eccentric bush up to their tip and the inner convex platform of eccentric bush.In order to carry out accurately hose compression adjustment, between joint gasket and eccentric bush, can be provided with one and have the scale plate of regulating required scale.By utilizing and the fixing identical keyway of above-mentioned joint gasket, this scale plate is fixed on the above-mentioned bent axle.

In Fig. 6,7, illustrated realize said apparatus according to attached hoses fixed system of the present invention.This affixment system comprises the rubber flange 32 that is inserted into hose end, and the sealing plate that is made of two corrugated sheets 33, and two half opening collet chucks 28 and mounting flange 7 if needed, can utilize line flange commonly used to replace above-mentioned mounting flange.

Above-mentioned flexible pipe is at opposition side radially respect to one another.Above-mentioned sealing plate the cross section be the thick 0.5-1mm of width than collet chuck opening 34 on the above-mentioned two halves.

It is identical that opening size is worn in feedback in the above-mentioned pump housing, or less times greater than the external diameter that is inserted into the hose end flange 32 in the hose end.For flexible pipe is installed in the pump chamber, above-mentioned hose end is worn opening via feedback and is outwards passed through from above-mentioned pump chamber inboard.It is outstanding that the free length of hose end is worn opening from feedback, and be trimmed to the twice of above-mentioned flexible pipe thickness.Above-mentioned opening collet chuck 28 is placed in hose end, after hose end flange 32, so that above-mentioned sealing plate 33 remains between two half opening collet chucks.Then, the opening cylinder double-layered quilt is fixed to the hose end flange that is inserted in the hose end.The flange rear side of above-mentioned opening collet chuck is placed with an O shape ring 29.At last, hose end is back in the pump chamber very deeply, so that the flange of opening collet chuck leans against on the pump housing 1.After this, the O shape ring in the flange of opening collet chuck and the gap between the inclined-plane 30 on the above-mentioned opening collet chuck of compression, this inclined-plane is that edge of opening is worn in the feedback of the above-mentioned pump housing, thereby can apply one two half opening cylinder crampings are leaned against power on the above-mentioned sealing plate.Therefore, between the periphery of opening collet chuck and pump chamber, produce a kind of sealing.Above-mentioned attached fixed system comprises hose end flange, opening collet chuck and O shape ring, and be mounted screw 7 and be fastened to the edge part that opening is worn in pump housing feedback.In order to hold hose end flange, above-mentioned mounting flange has the boss 31 of a sinking, is used to prevent that hose end flange is fastening excessive.When the degree of depth of above-mentioned sinking boss was provided with to such an extent that the flange of mounting flange and opening collet chuck is contacted, the compression at the hose end place to hose end flange was approximately 30%.Above-mentioned decrement is enough to hose end is held in place.The compression meeting excessive to hose end flange produces damage to hose end flange, thereby influences the intensity of above-mentioned flange.Under certain conditions, can get out fixed hole on the position identical with the standard line flange on mounting flange, these standard line flange are corresponding to the pump of norminal size and pressure regulation.And if needed, also can replace above-mentioned mounting flange by line flange commonly used.

The steel loop that is embedded in the above-mentioned hose end flange can guarantee further that hose end flange can keep self shape, even and this flange be subjected to great machinery load and also can not come off from attachment points.Above-mentioned sealing plate can seal two axial clearances between the half opening collet chuck that is used to clamp pump hose, can also confirm whether the said pump flexible pipe is clamped by straight line as indicator in the process that pump hose is installed, in order to avoid distortion.Above-mentioned sealing plate casting forms, thereby they can be horizontal when pump hose is correctly installed.

For the person of ordinary skill of the art, it is evident that the present invention is not limited to above-mentioned illustrative example, in the spirit and scope of claims different variations can also be arranged subsequently in the present invention.Except above-mentioned these, can also obtain more advantage by apparatus structure of the present invention.Above-mentioned attached hoses fixed system is simple in structure and the said pump flexible pipe fixed in the mode of tension.Disclosed hereinly above-mentionedly the flexible pipe feedback of having used flanged flexible pipe and sealing is set wears opening.Above-mentioned flexible pipe fixed system can also help correction and be easy to install flexible pipe again, and this installation is confirmed.In addition, can also use the standard line flange to carry out pumping connects.

And the advantage of eccentric adjuster and creative being can accurately and reliably be set hose compression on the flexible pipe of wearing and tearing.In above-mentioned eccentric adjustment bushing device, above-mentioned bearing is by means of locking closure, can not have to be fastened on the above-mentioned eccentric bush with rocking, and further by means of this locking closure with eccentric bush locking and seal compression adjusting gear.These all adjustings all can be implemented by an operator, and do not need special tool, also need not deposit a plurality of replacement parts that separate.

For efficient, operational reliability, especially for being easy to maintenance function, device according to the present invention has substantial improvement on the wriggling pump structure.The invention is characterized in that device disclosed herein is relevant to by pressure elasticity flexible pipe constantly comes pumping fluid and mud, from the flexible pipe suction side, finish to the flexible pipe exhaust end, thereby before compression place, above-mentioned continuous compression can be with fluid or mud to front transfer.Above-mentioned two kinds of mechanical structures can be advantageously used in according in the device of the present invention.The objective of the invention is particularly novel and creative mode, pump hose is inserted in the pump chamber, the attached fixed system of hose end is provided, will reduces to minimum flexible pipe replacing method downtime, and adjusting/locking mechanism that hose compression is regulated.

Claims

1, a kind of control flexible pipe etc. is in particular for the elastic pump tubes in the peristaltic pump (peristaltic pump) or the composite set of pump channel, it is characterized in that, said pump is provided with regulates the pump pressure be applied on the hose/tube and/or the device of compressive force, and said apparatus comprises infinitely variable eccentric adjustment mechanism.

2, composite set as claimed in claim 1 is characterized in that, above-mentioned peristaltic pump can use separately, perhaps with the use that combines of above-mentioned eccentric adjustment mechanism and the attached hoses fixed system that is used for applied pressure on the control pump hose/tube.

3, composite set as claimed in claim 1 or 2 is characterized in that, above-mentioned eccentric adjustment mechanism comprises eccentric adjustment lining (5), worm gear (6), spur wheel (9), locking closure (4), lock pin (11) and at least one lock bolt (12).

4, as each described composite set among the claim 1-3, it is characterized in that, be installed in eccentric bush (5) on the crankpin (10) by rotation, above-mentioned eccentric adjustment mechanism can be used for regulating the gap (23) between week in pump rotor outer surface and the pump chamber.

As each described composite set among the claim 1-4, it is characterized in that 5, the throw of eccentric of above-mentioned adjusting lining (19) is to finish by the periphery eccentric boring on lining with respect to lining.

6, as each described composite set among the claim 1-5, it is characterized in that, the rotation of above-mentioned eccentric adjustment lining is realized by the reduction gear such as worm gear between eccentric bush and bent axle, constitutes in the entity part of above-mentioned reduction gear by worm gear (6) embedding eccentric bush.

As each described composite set among the claim 1-6, it is characterized in that 7, above-mentioned spur wheel (9) is installed in the end of crankpin or is machined directly on the end of above-mentioned crankpin.

8, as each described composite set among the claim 1-7, it is characterized in that, use can be in the end correction torque spanner of (18) rotation worm gears (6), just can control the adjusting power of above-mentioned hose compression.

9, as each described composite set among the claim 1-8, it is characterized in that, by means of locking closure (4), above-mentioned eccentric adjustment lining is locked against on the crankpin, this locking closure is clipped on the conical surface (14) of eccentric bush by bolt (12), thereby the power that applies of above-mentioned lock bolt can compress the O V-shaped ring (15) between locking closure flange and the eccentric bush simultaneously.

10, as each described composite set among the claim 1-9, it is characterized in that, can prevent that by means of the lock pin between crankpin end and the locking closure (11) locking closure from rotating.

As each described composite set among the claim 1-10, it is characterized in that 11, by locking closure, the bearing inner race that is installed on the eccentric bush can also axially be clipped between eccentric bush boss (17) and the bent axle boss (16).

12, as each described composite set among the claim 1-11, it is characterized in that, above-mentioned attached hoses fixed system comprises the rubber flange (27) that is inserted in the hose end, the sealing plate that comprises two corrugated sheets (gills) (33) expediently, with two half opening collet chucks (28), if necessary, a mounting flange (7) can also be arranged.

13, as each described composite set among the claim 1-12, it is characterized in that, above-mentioned sealing plate (33) is outstanding from hose end flange, the external diameter of outer peripheral radial dimension of sealing plate and hose end flange is complementary, above-mentioned sealing plate is positioned near the opposition side respect to one another above-mentioned flexible pipe periphery, thus above-mentioned sealing plate the cross section than the thick 0.5-1mm of opening (34) width of in two collet chuck.

14, as each described composite set among the claim 1-13, it is characterized in that, the size that opening is worn in feedback on the above-mentioned pump housing equates with the external diameter that is inserted into the hose end flange (32) in the hose end, or it is big slightly, above-mentioned opening cylinder double-layered quilt places on the hose end flange, in hose end flange (32) afterwards, thus above-mentioned sealing plate can be arranged between above-mentioned two half opening collet chucks.

15, as each described composite set among the claim 1-14, it is characterized in that, the flange of above-mentioned opening collet chuck is fixed on the hose end flange that is inserted in the hose end, the flange rear side of opening collet chuck is being provided with an O shape ring (29), being pressed in the feedback of the flange of opening collet chuck and the pump housing wears in the gap between the inclined-plane (30) of edge of opening, thereby apply a power, above-mentioned two halves opening cylinder folder be pressed on the sealing plate, and can the sealed open collet chuck and the pump housing between the gap.

16, as each described composite set among the claim 1-15, it is characterized in that,, be provided with a sinking boss (31), be used to prevent that hose end flange is fastening excessive for mounting flange.